introduction to msk ultrasound - california ... dubois, md • private practice orthopaedic surgeon...

INTRODUCTION TO MSK ULTRASOUND

Ben DuBois, M.D.San Diego, CA

www.shoulderultrasound.com

DISCLOSURE

• EDUCATIONAL CONSULTANT FOR SONOSITE and GE HEALTHCARE

Ben DuBois, MD• Private Practice Orthopaedic Surgeon

• Fellowship Trained Shoulder Specialist

• 7 Years in Practice

• Over 1000 US Exams and Injections

• Train Other Physicians

• www.shoulderultrasound.com

COURSE OBJECTIVES• Identify indications for US and how to

integrate it into your practice

• Identify normal anatomy

• Identify abnormal anatomy

• Understand role of US in injections

• Understand cost, coding & reimbursement

ULTRASOUND BASICS

Ben DuBois, M.D.San Diego, CA

www.shoulderultrasound.com

What is Ultrasound?

High frequency sound waves

frequencies higher than human hearing

Audible Sound is 20Hz - 20,000Hz

Diagnostic US is >1,000,000Hz (1MHz)

Musculoskeletal US is 7MHz - 18MHz

What Can MSK Ultrasound Image?Skeletal bone

Muscle

Tendon

Nerve

Subcutaneous tissue

Needles

What Can MSK Ultrasound Image?

Foot/Ankle, Knee, Hip

Fingers/Wrist, Elbow, Shoulder

Shoulder is the most commonly imaged joint

What Can MSK Ultrasound Identify?Inflammation

Tendon tears (complete and partial)

Soft tissue lesions and masses

Fluid collections

Fractures

What Are Ultrasound Advantages?Efficient and cost effective

Provides dynamic, “live” images

No known long term side effects

Portable, relatively inexpensive

High spatial resolution (1mm) with high frequency transducers

Effective visualization of the postsurgical rotator cuff - not affected by implants like MRI

What Are Ultrasound Disadvantages?

Can’t see “thru” bone or gas

Relatively limited depth of penetration (Can’t Dx SLAP, labral pathology)

Operator dependent/Learning Curve

Hardware/Software dependent imaging modality

Basic US Concept

Higher frequency transducers

Better resolution, less penetration

Lower frequency transducers

Worse resolution, better penetration

How Does Diagnostic Ultrasound Work?

Step 1 - Making the US wave

Step 2 - Receiving US reflections/echoes

Step 3 - Interpreting the US reflections

Three Basic Steps

How Does It Work?

The US machine sends electrical pulses to piezoelectric elements within the transducer

Transducer generates a US waves at the desired frequency

Modern musculoskeletal transducers are typically linear phased array transducers

US machines can change direction anddepth of focus

Step 1 - Making The Sound Wave

How Does It Work?

The US wave is partially reflected when it hits a density change in the body

The amount of the reflection depends on the density difference (impedance difference)

Large density difference - large reflection, “bright echo”

Small density difference - small reflection, “grayer”

Step 2 - Receiving The US Reflections/Echoes

How Does It Work?

US reflections are received by the transducer which vibrates the transducer

Transducer turns vibrations back into electrical pulses that are then interpreted by the machine to create an image

Step 2 - Receiving The US Reflections/Echoes

How Does It Work?Step 3 - Interpreting The US Reflections

EchogenicityHyperechoic - Brighter (bone surfaces)Hypoechoic - Darker (muscle, cartilage)

Isoechoic - EqualAnechoic - Black (fluid)

anechoic

hyperechoicTRANSDUCER

Tissue AppearancesTendon - parallel collagen bundles, brightly echogenic structure with fine fibrillar pattern. Nerve is similar to tendonMuscle - hypoechoic bundles interspresed with echogenic connective tissueBone - bright hyperechoic surface with significant posterior shadowing or signal loss below the cortical surfaceArticular cartilage - anechoic (black), thin layer above bright cortical bone

THANK YOU

www.shoulderultrasound.com